KR100205865B1 - Steam size control device and its method of humidifier - Google Patents

Abstract

The present invention relates to an apparatus for controlling the size of steam of a humidifier and a method of controlling the size of steam discharged by controlling the rotation speed of a heater and an ultrasonic combined humidifier. The present invention is a temperature sensor for detecting the water temperature in the tank, a water level detection sensor for detecting the water level in the tank, a key input unit for inputting the steam size control signal, and the water level detected by the water level detection sensor reaches a certain level If you compare the water temperature detected by the temperature sensor and the reference set temperature stored in the internal memory to control the driving of the heater and the microcomputer to control the rotation speed of the blowing fan according to the steam size control signal set through the key input unit, and output from the microcomputer A heater driver for controlling the heater according to the supplied heater drive control signal, a blower fan driver for rotating the blower fan according to the blower fan speed control signal output from the microcomputer, and discharging water vapor generated under the control of the blower fan driver. A blowing fan is provided.

Description

Humidifier Size Control System and Method

The present invention relates to a humidification control of a humidifier, and more particularly, to an apparatus and a method for controlling a size of a steam for controlling a size of steam discharged by controlling the rotation speed of a blowing fan in a heater and an ultrasonic humidifier.

In general, a humidifier includes an ultrasonic vibration humidifier using a vibrator and a heater humidifier using a heater.

Here, the ultrasonic humidifier of the vibration method, a water bottle for storing water in the main body, a water pipe for transmitting the water stored in the water bottle to the vibrator and a vibrator for generating water vapor by vibrating the water transmitted by the water pipe, and generated by the vibrator And a discharge pipe for discharging guided steam.

The ultrasonic humidifier configured as described above is humidified by supplying the water stored in the water bottle to the vibrator through the water supply pipe, changing the water into water vapor by vibrating the vibrator, and discharging the water to the discharge port.

In addition, the heater humidifier is a heater including a water tank for storing the water inside the main body, a water supply pipe for transmitting the water stored in the water tank to the vibrator, a heating plate for heating the water delivered by the water supply pipe to generate water vapor, and by the heater It consists of a guide tube for guiding the generated steam to the top, and a discharge port for discharging the guided steam.

The heater humidifier configured as described above generates a heat source by driving the heater, heats the heating plate with the heat source, and boils water guided through the water supply pipe to generate steam.

The generated water vapor is guided upward through the guide tube and humidified by being discharged to the outside through the discharge port.

At this time, the control of the heater sets the water temperature for turning on and off the heater, and after detecting the water temperature of the humidification tank using a temperature sensor, when the detected water temperature reaches the temperature for turning on the heater, turning on the heater and turning off the heater. When the temperature is reached, the heater is controlled by turning off the heater.

Ultrasonic humidifier using vibration in such a general humidifier has the advantage of a large amount of spray and low power consumption, while it does not remove the bacteria generated in the water stored in the water bottle as it is not beneficial to health and heater humidifier to heat the water Therefore, there is an advantage that can suppress bacteria, but on the other hand, there is a disadvantage in that the amount is small and the power consumption is high, and the ultrasonic and heater combined humidifier using only the advantages of ultrasonic and heater in recent years.

However, the ultrasonic and heater combined humidifier has a problem in that condensation occurs in the atmosphere in a narrow space because it is impossible to control the size of the generated steam.

Therefore, the present invention is to solve the problems of the above-mentioned ultrasonic and heater combined humidifier, an object of the present invention is to control the size of the water vapor discharged by controlling the rotation speed of the fan and the fan in the ultrasonic and ultrasonic and ultrasonic combined humidifier. To provide a water vapor size control device of the humidifier.

The technical means for achieving the object of the present invention is a temperature sensor for detecting the water temperature in the tank, a water level detection sensor for detecting the water level in the tank, a key input unit for inputting the steam size control signal, by the detection sensor When the detected water level reaches a certain water level, the driving of the heater is controlled by comparing the water temperature detected by the temperature sensor with a reference set temperature stored in the internal memory, and rotating the blower fan according to the steam size control signal set through the key input unit. A microcomputer for controlling the number, a heater driver for controlling the heater in accordance with the heater drive control signal output from the micom, and a blower fan drive unit for rotating the blower fan in accordance with the blower fan speed control signal output from the micom.

According to another aspect of the present invention, there is provided a method of detecting a water level using a water level detection sensor when power is supplied, and driving a heater and a timer when the water level is reached. A second step of generating water vapor by driving an oscillator when a set time elapses after the timer is driven; The third step of controlling the number of revolutions of the blower fan in accordance with the steam size control signal set through the key input unit after the steam generation.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a block diagram of the water vapor control device of the humidifier according to the present invention.

As shown, the humidifier according to the present invention, the temperature sensor 1 for detecting the water temperature in the tank, the water level detection sensor 2 for detecting the water level in the tank, and the key input unit 3 for inputting the steam size control signal ) And when the water level detected by the water level detection sensor 2 reaches a predetermined water level, the driving of the heater is controlled by comparing the water temperature detected by the temperature sensor 1 with a reference set temperature stored in the internal memory. And microcomputer (4) for controlling the number of revolutions of the blowing fan in accordance with the steam size control signal set through the input unit (3). The heater driving unit 5 for controlling the heater 6 according to the heater driving control signal output from the microcomputer 4 and the blower fan 9 according to the blowing fan speed control signal output from the microcomputer 4. It is comprised by the blowing fan drive part 8 which rotates, and the vibrator drive part 7 which drives a vibrator.

The blower fan 9 is characterized in that the water vapor generated by the vibrator drive unit 7 is installed in the discharge port is discharged to pass through the blower fan (9).

2 is a flowchart illustrating a humidification control process of the heater humidifier according to the present invention.

As shown, the step of adjusting the water vapor size of the humidifier according to the present invention includes a first step (S1-S4) of detecting the water level by the water level detection sensor when the power is supplied and driving the heater and the timer when the water level is reached. A second process (S5-S7) of generating water vapor by driving an oscillator when a set time elapses after driving the timer; After the generation of the steam is made of a third process (S8-S11) for controlling the number of revolutions of the blowing fan according to the steam size control signal set through the key input unit.

When explaining the operation and effect of the water vapor size adjusting apparatus according to the present invention configured as described above based on Figures 1 and 2 as follows.

First, when power is supplied to the humidifier (S1), the water level detection sensor 2 detects the water level in the water tank, and when the detected water level reaches a certain level, it informs the microcomputer 4 that the water level has reached a certain level. (S2).

As described above, the microcomputer 4 generates a heater driving signal and turns on the internal timer when the water level reaches a predetermined level (S3, S4).

Then, the heater driving unit 5 drives the heater to boil the water to be humidified to eradicate bacteria, and the microcomputer 4 searches for the counting value of the internal timer, turns off the internal timer after the set time has elapsed, and the vibrator driving unit 7 To generate water vapor (S5-S7).

In this case, the timer is searched for the elapse of a predetermined time because the humidification is not performed at the same time as the driving of the heater, but only after a certain amount of preheating, water is boiled by the heater to count the preheating time.

On the other hand, while driving the vibrator to generate water vapor, the microcomputer 4 searches for the steam size control signal input by the user through the key input unit 3, where the water vapor size indicates a space or condensation state for the user to humidify. By judging, the control signal is set.

That is, when the user sets the water vapor size control signal to about through the key input unit 3, the microcomputer 4 generates a control signal to the blowing fan drive unit 8 so that the blowing fan rotation speed is the smallest, thereby blowing The fan driver 8 rotates the blower fan 9 at the set minimum rotational speed (2,000 rpm) (S11).

Accordingly, the water vapor passing through the blowing fan 9 is discharged to the outside at a slow speed (rotation force of the minimum rotational speed) while the particles are decomposed by the rotational force of the blowing fan.

In addition, when the user sets the water vapor size control signal to the medium through the key input unit 3, the microcomputer 4 generates a control signal to the blowing fan drive unit 8 set such that the blowing fan rotation speed is at an intermediate level. The blowing fan driver 8 rotates the blowing fan 9 at a medium speed (2,400 rpm) (S9).

Accordingly, the water vapor passing through the blowing fan 9 is decomposed into particles smaller than the minimum rotation speed and larger than the maximum rotation speed and discharged to the outside by the intermediate level rotational force, and the speed is slightly faster than the minimum rotation speed and the maximum rotation speed It is discharged at a slower speed.

And when the user sets the water vapor size control signal to the strong through the key input unit 3, the microcomputer 4 generates a control signal to the blowing fan drive unit 8 so that the blowing fan rotation speed is the maximum, and thus the blowing fan The driving unit 8 is to rotate the blowing fan 9 at the maximum rotational speed (2,800 rpm) (S10).

Accordingly, since the most revolving power is stronger than the rotational speed of the lowest and the middle level described above, the steam particles are further decomposed by the blowing fan 9 and discharged to the outside at a high speed.

Therefore, when the user selects the rotation speed of the blowing fan 9 set in the microcomputer 4, the size of the water vapor is dissociated and discharged by the blowing fan 9 rotated at the selected rotation speed.

As described above, the present invention generates water vapor by driving a heater and controls the size of the water vapor by controlling the rotation speed of the blower fan according to external conditions (water vapor size control signal by the user), so that condensation occurs when humidifying in a narrow space. It can be prevented from occurring.

Claims (2)

The temperature sensor 1 for detecting the water temperature in the tank, the water level detection sensor 2 for detecting the water level in the tank, the key input unit 3 for inputting the steam magnitude control signal, and the water level detection sensor 2 When the detected water level reaches a certain level, the water temperature detected by the temperature sensor 1 is compared with the reference set temperature stored in the internal memory to control the driving of the heater and to adjust the size of the water vapor set through the key input unit 3. A microcomputer 4 for controlling the number of revolutions of the blower fan strong, medium, and weak according to a signal, a heater driver 5 for controlling the heater 6 according to a heater driving control signal output from the microcomputer 4; A blowing fan driver 8 for rotating the blowing fan 9 according to the blowing fan rotation speed control signal output from the microcomputer 4, and discharging water vapor generated under the control of the blowing fan driver 8; Decompose the discharged steam according to the rotational force The steam size control device of the humidifier, characterized in that comprises a blowing fan (9) A first step (S1-S4) of detecting a water level by a water level detection sensor when the power is supplied and driving a heater and a timer when the water level is reached; A second process (S5-S7) of generating water vapor by driving an oscillator when a set time elapses after driving the timer; And a third process (S8-S11) of controlling the number of rotations of the blower fan according to the steam size control signal set through the key input unit after the generation of the steam.